Mapping and Monitoring Fractional Woody Vegetation Cover in the Arid Savannas of Namibia Using LiDAR Training Data, Machine Learning, and ALOS PALSAR Data
Namibia is a very arid country, which has experienced significant bush encroachment and associated decreased livestock productivity. Therefore, it is essential to monitor bush encroachment and widespread debushing activities, including selective bush thinning and complete bush clearing. The aim of s...
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doaj-75324efc9beb4a5d8058085e8ccf20942020-11-25T00:09:54ZengMDPI AGRemote Sensing2072-42922019-11-011122263310.3390/rs11222633rs11222633Mapping and Monitoring Fractional Woody Vegetation Cover in the Arid Savannas of Namibia Using LiDAR Training Data, Machine Learning, and ALOS PALSAR DataKonrad Wessels0Renaud Mathieu1Nichola Knox2Russell Main3Laven Naidoo4Karen Steenkamp5Geography and GeoInformation Science, George Mason University, 4400 University Drive, MSN 6C3, Fairfax, VA 22030, USAGeospatial Science and Modelling, Sustainable Impact Platform, International Rice Research Institute (IRRI), Los Baños 4031, PhilippinesDepartment Geo-Spatial Sciences and Technology, Namibia University of Science and Technology, Windhoek, NamibiaEcosystems Earth Observation, Natural Resources and Environment, CSIR, Pretoria 0001, South AfricaEcosystems Earth Observation, Natural Resources and Environment, CSIR, Pretoria 0001, South AfricaRemote Sensing Research Unit, Earth Observation Science and Information Technology, Meraka Institute, CSIR, Pretoria 0001, South AfricaNamibia is a very arid country, which has experienced significant bush encroachment and associated decreased livestock productivity. Therefore, it is essential to monitor bush encroachment and widespread debushing activities, including selective bush thinning and complete bush clearing. The aim of study was to develop a system to map and monitor fractional woody cover (FWC) at national scales (50 m and 75 m resolution) using Synthetic Aperture Radar (SAR) satellite data (Advanced Land Observing Satellite (ALOS) Phased Arrayed L-band Synthetic Aperture Radar (PALSAR) global mosaics, 2009, 2010, 2015, 2016) and ancillary variables (mean annual precipitation—MAP, elevation), with machine learning models that were trained with diverse airborne Light Detection and Ranging (LiDAR) data sets (244,032 ha, 2008−2014). When only the SAR variables were used, an average R<sup>2</sup> of 0.65 (RSME = 0.16) was attained. Adding either elevation or MAP, or both ancillary variables, increased the mean R<sup>2</sup> to 0.75 (RSME = 0.13), and 0.79 (RSME = 0.12). The inclusion of MAP addressed the overestimation of FWC in very arid areas, but resulted in anomalies in the form of sharp gradients in FWC along a MAP contour which were most likely caused by to the geographic distribution of the LiDAR training data. Additional targeted LiDAR acquisitions could address this issue. This was the first attempt to produce SAR-derived FWC maps for Namibia and the maps contain substantially more detailed spatial information on woody vegetation structure than existing national maps. During the seven-year study period the Shrubland−Woodland Mosaic was the only vegetation structural class that exhibited a regional net gain in FWC of more than 0.2 across 9% (11,906 km<sup>2</sup>) of its area that may potentially be attributed to bush encroachment. FWC change maps provided regional insights and detailed local patterns related to debushing and regrowth that can inform national rangeland policies and debushing programs.https://www.mdpi.com/2072-4292/11/22/2633namibiabush encroachmentalos palsarwoody coverlidartreeshrub |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Konrad Wessels Renaud Mathieu Nichola Knox Russell Main Laven Naidoo Karen Steenkamp |
spellingShingle |
Konrad Wessels Renaud Mathieu Nichola Knox Russell Main Laven Naidoo Karen Steenkamp Mapping and Monitoring Fractional Woody Vegetation Cover in the Arid Savannas of Namibia Using LiDAR Training Data, Machine Learning, and ALOS PALSAR Data Remote Sensing namibia bush encroachment alos palsar woody cover lidar tree shrub |
author_facet |
Konrad Wessels Renaud Mathieu Nichola Knox Russell Main Laven Naidoo Karen Steenkamp |
author_sort |
Konrad Wessels |
title |
Mapping and Monitoring Fractional Woody Vegetation Cover in the Arid Savannas of Namibia Using LiDAR Training Data, Machine Learning, and ALOS PALSAR Data |
title_short |
Mapping and Monitoring Fractional Woody Vegetation Cover in the Arid Savannas of Namibia Using LiDAR Training Data, Machine Learning, and ALOS PALSAR Data |
title_full |
Mapping and Monitoring Fractional Woody Vegetation Cover in the Arid Savannas of Namibia Using LiDAR Training Data, Machine Learning, and ALOS PALSAR Data |
title_fullStr |
Mapping and Monitoring Fractional Woody Vegetation Cover in the Arid Savannas of Namibia Using LiDAR Training Data, Machine Learning, and ALOS PALSAR Data |
title_full_unstemmed |
Mapping and Monitoring Fractional Woody Vegetation Cover in the Arid Savannas of Namibia Using LiDAR Training Data, Machine Learning, and ALOS PALSAR Data |
title_sort |
mapping and monitoring fractional woody vegetation cover in the arid savannas of namibia using lidar training data, machine learning, and alos palsar data |
publisher |
MDPI AG |
series |
Remote Sensing |
issn |
2072-4292 |
publishDate |
2019-11-01 |
description |
Namibia is a very arid country, which has experienced significant bush encroachment and associated decreased livestock productivity. Therefore, it is essential to monitor bush encroachment and widespread debushing activities, including selective bush thinning and complete bush clearing. The aim of study was to develop a system to map and monitor fractional woody cover (FWC) at national scales (50 m and 75 m resolution) using Synthetic Aperture Radar (SAR) satellite data (Advanced Land Observing Satellite (ALOS) Phased Arrayed L-band Synthetic Aperture Radar (PALSAR) global mosaics, 2009, 2010, 2015, 2016) and ancillary variables (mean annual precipitation—MAP, elevation), with machine learning models that were trained with diverse airborne Light Detection and Ranging (LiDAR) data sets (244,032 ha, 2008−2014). When only the SAR variables were used, an average R<sup>2</sup> of 0.65 (RSME = 0.16) was attained. Adding either elevation or MAP, or both ancillary variables, increased the mean R<sup>2</sup> to 0.75 (RSME = 0.13), and 0.79 (RSME = 0.12). The inclusion of MAP addressed the overestimation of FWC in very arid areas, but resulted in anomalies in the form of sharp gradients in FWC along a MAP contour which were most likely caused by to the geographic distribution of the LiDAR training data. Additional targeted LiDAR acquisitions could address this issue. This was the first attempt to produce SAR-derived FWC maps for Namibia and the maps contain substantially more detailed spatial information on woody vegetation structure than existing national maps. During the seven-year study period the Shrubland−Woodland Mosaic was the only vegetation structural class that exhibited a regional net gain in FWC of more than 0.2 across 9% (11,906 km<sup>2</sup>) of its area that may potentially be attributed to bush encroachment. FWC change maps provided regional insights and detailed local patterns related to debushing and regrowth that can inform national rangeland policies and debushing programs. |
topic |
namibia bush encroachment alos palsar woody cover lidar tree shrub |
url |
https://www.mdpi.com/2072-4292/11/22/2633 |
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